Project description:The effects of TSN on global RNA expression was tested on tumor endothelial cell (EC)-educated macrophages using RNAseq.

Project description:The effects of TSN on total RNA expression were tested in DOHH2 cells using RNA-seq

Project description:Temporomandibular joint osteoarthritis (TMJOA) is a prevalent musculoskeletal disease without effective therapeutic measure. DDX5 regulated the progression of cancer，immune disease, as well as skin inflammation by activating a series of signal transduction pathways. However, the role of DDX5 in TMJOA has not been reported yet. The distribution of DDX5 in human cartilage was performed by HE, Safranin O and Masson staining. Moreover, the expression of DDX5 was unveiled by immunofluorescent analyses. The role of DDX5 in TMJOA was verified by UAC-induced TMJOA mice and Aggrecan-CreERT; DDX5flox/flox mice. The downstream protein expression profile of DDX5 were examined by RNA-Seq analysis. The DDX5 expression remarkably decreased in the condylar cartilage of patients with TMJOA. DDX5 decreased with cartilage degradation in UAC-Induced TMJOA mice. Cartilage specific DDX5 knockout induced cartilage degeneration. Mechanistically, the inhibition expression of DDX5 accelerates cartilage degeneration by activating NF-κB Signaling. Additionally, DDX5 overexpression alleviated the progression of TMJOA under excessive mechanical stress.

Project description:African swine fever virus (ASFV) is a highly infectious and lethal swine pathogen that causes severe socio-economic consequences in affected countries. Unfortunately, effective vaccine for combating ASF is unavailable so far, and the prevention and control strategies for ASFV are still very limited. Toosendanin (TSN), a triterpenoid saponin extracted from the medicinal herb Melia toosendan Sieb. Et Zucc, has been demonstrated to possess analgesic, anti-inflammatory, anti-botulism and anti-microbial activities, and was used clinically as an anthelmintic, while the antiviral effect of TSN on ASFV has not been reported. In this study, we revealed that TSN exhibited a potent inhibitory effect on ASFV GD955-38 strain in porcine alveolar macrophages (PAMs) (EC50=0.085 μM, SI = 365) in a dose-dependent manner. TSN showed robust antiviral activity in different doses of ASFV infection and reduced the transcription and translation levels of ASFV p30 protein, viral genomic DNA quantity as well as viral titer at 24 and 48 hours post-infection. In addition, TSN did not affect virion attachment and release but intervened in its internalization in PAMs. Further investigations disclosed that TSN played its antiviral role by upregulating the host IFN-stimulated gene (ISG) IRF1 rather than by directly inactivating the virus particles. Overall, our results suggest that TSN is an effective antiviral agent against ASFV replication in vitro and may have the potential for clinical use.

Project description:DDX5 is a DEAD-box RNA helicase that is overexpressed and implicated in the progression of several cancers, including small cell lung cancer (SCLC). Our laboratory has demonstrated that DDX5 is essential for the invasive growth of SCLC and mitochondrial respiration. SCLC is an extremely lethal, recalcitrant tumor, and currently lacking effective treatments. Supinoxin (RX 5902), a compound having anti-cancer activity, is a known target of phosphor-DDX5. We now report that Supinoxin inhibits the proliferation of chemo-sensitive and chemo-resistant SCLC lines, H69 and H69AR respectively. Additionally, Supinoxin mitigates both the growth of H69AR xenograft tumors and SCLC PDX tumors in vivo. Finally, we find that Supinoxin inhibits expression of mitochondrial genes and effectively blocks respiration. These studies suggest that Supinoxin functions in anti-tumor progression by reducing cellular energy levels through DDX5.

Project description:Toosendanin Suppresses Acute Myeloid Leukemia by Targeting DDX5/c-Myc Axis to inhibit Protein Synthesis

Project description:The Asp-Glu-Ala-Asp (DEAD)-box RNA binding protein, DDX5, is ubiquitously expressed in many cell types, yet its role in RNA metabolism and its downstream function in vivo has not been fully elucidated. In the intestine, DDX5 is highly expressed in the intestinal epithelial cell (IECs) and contributes to tumorigenesis. Here, we used a conditional mouse lines where DDX5 is knocked out in IECs upon Tamoxifen administration to uncover mechanisms underlying DDX5 functions in colon tumors.

Project description:Transcriptome analysis of toosendanin (TSN)-treated macrophages

Project description:DDX5 is a founding member of the DEAD-box RNA helicase family, which are a group of enzymes that regulate ribonucleoprotein (RNP) formation and function in every aspect of RNA metabolism. Our lab previously found that DDX5 is involved in energy homeostasis, a process altered in many cancers. Small cell lung cancer (SCLC) is an understudied cancer type that lacks effective treatment. Therefore, we investigated the roles of DDX5 in SCLC. We show here that DDX5 is overexpressed in SCLC cell lines. Depletion of DDX5 results in reduced growth and mitochondrial dysfunction in the chemoresistant SCLC cell line H69AR. The latter is evidenced by downregulation of genes involved in oxidative phosphorylation and impaired oxygen consumption,. Interestingly, depletion of DDX5 specifically leads to reduction of intracellular succinate, a TCA intermediate that serves as a direct electron donor to mitochondrial complex II. Taken together, we propose that the oncogenic role of DDX5 is at least in part manifested through upregulation of respiration to support the energy demands of cancer cells. This also suggests that defects in RNP remodeling are connected to energy metabolism and carcinogenesis.

Project description:Ddx5 inhibition in RN2 cells slows cell proliferation and induces apoptosis within 48-72hrs. The aim of this analysis was to gain insight into how Ddx5 inhibition causes this outcome by analyzing gene expression changes in RN2 cells that occur at early timepoints after Ddx5 inhibition that precedes the timepoint when RN2 proliferation/cell death becomes evident in tissue culture (72hrs after inhibition). Derivatives of RN2 AML cells were prepared that encode doxycycline-inducible expression of either of two different shRNAs targeting Ddx5 (shDdx5.1322 and shDdx5.2086) or a negative control shRNA that targets Renilla Luciferase (shRen.713). Six independent cultures of each derivative RN2 cell line (shDdx5.1322, shDdx5.2086, or shRen.713) were treated with doxycycline at timepoint 0 days to induce expression of the indicated shRNA in the RN2 cells. Each shRNA is co-expressed with dsRed in a doxycycline-induced manner and flow cytometry analysis indicated that doxycycline induced expression of dsRed and the shRNA in 70-to-80% of the cells in each culture. RNA was isolated from three independent cultures of each derivative RN2 cell line at either 24hrs and 48hrs after dpxycycline treatment. Therefore this study consists of 18 samples, sequencing results from biological triplicate samples of RN2-shDdx5.1322, RN2-shDdx5.2086, and RN2-shRen.713 at 24hrs post-doxycycline and sequencing results from biological triplicate samples of RN2-shDdx5.1322, RN2-shDdx5.2086, and shRen.713 at 48hrs post-doxycycline.